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Změny mechaniky pohybu koně v tahu při různé zátěži
PISCOVÁ MANDOVÁ, Paulína
Cold-blooded horses find their use at present mainly in tensile work in forest stands. Motion mechanics plays the key role in estimating their potential for performing this activity. Subsequently, it is used in their selection and reproduction. In the process, applied load the horse is working with significantly influences the characteristics of a movement. Therefore, for horses doing tensile work, an objective assessment of their movement mechanics is important, not only during demonstration but also under a changing load. The aim of this study was to prepare and evaluate an experiment for assessing the quantitative characteristics of motion mechanics (step length, action height and running speed) of a cold-blooded horse with no load and with a load of different weight using videographic kinematic analysis. The data obtained were statistically processed to assess changes in step length, action height and running speed depending on the changing load. The results of our experiment showed that the step length decreases with increasing weight of the load. From an average value of 1.94 m at run without a load, it drops to an average value of 1.02 m at a maximum monitored load of 500 kg. A high dependence (r=-0.93) of the step length reduction on the tensile load was found. The dependence is strongly evincible (p<0.001). Changes in action height with increasing load weight are different for the forelimb and rear limb. The forelimb has an almost constant value (~ 0.08m) and no dependence (p=0.977) on the changing weight of the load has been demonstrated. The rear limb shows a strong correlation (p<0.001) to the increasing weight of the load. The correlation coefficient r=0.52 indicates only a slight dependence. This difference can be explained by different function and construction of the limb. The running speed derived from the horizontal marker from the tracking mark on the back is uniform in all observed cases and decreases from 1.95 m.s-1 to 1.19 m.s-1 with increasing weight of the load. The dependence is strongly evincible (p<0.001) and the correlation coefficient of r=-0.94 indicates a strong dependence. The results obtained from the horizontal head velocity component are very well matched to the spine results. The results provided by this method can be an invaluable tool in objective detection of utility and breeding potential of cold-blooded horse in tensile work. Based on these findings, we can recommend further development of videographic kinematic analysis application to objectify the evaluation of quantitative characteristics of motion mechanics for zootechnical and breeding practice.
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